Tobacco (Nicotiana tabacum L.) is one of the most widely cultivated industrial crops worldwide. From April to July 2023, about 40% of tobacco seedlings in the greenhouse exhibited irregular taupe lesions in Zhengzhou, Henan Province, China. At an early stage of the lesion development, light grey spots with the diameter of 1-2 mm were observed, these spots gradually expanded and connected into large irregular lesions causing leaf wrinkling or withered. A total of 12 infected leaf tissues were sterilized with 75% ethanol for 45 s, rinsed three times in sterilized water and then plated on potato dextrose agar (PDA) medium for 10 days at 28°C in darkness. Seven fungal colonies that show the similar appearance were isolated and three of them (MB-1, MB-2 and MB-3) were used for subsequent identification. Colonies of these strains on PDA with loose mycelium and orange-red pigment on the underside, white aerial in the center and light yellow hyphae near the periphery, formed in the shape of a concentric ring pattern. Ascomata appeared from the 14th day, were black, spherical or ellipsoid with walls of textura angularis, and size was 53.8-101.1 μm × 50.3-104.3 μm (n=30). Terminal hairs were brown and straight, gradually tapering toward the tips. Asci clavate or fusiform, spore bearing part 16.2-29.2 × 7.3-11.4 μm (n=21), with 8 irregularly arranged ascospores, evanescent. Ascospores are brown at maturity, biapiculate, navicular or fusiform shapes with size of 8.7-12.8 μm × 4.8-6.9 μm (n=100), and more or less inaequilateral. Single spore strains derived from these strains exhibited the morphological features consistent with the original strains. The morphological characteristics of the fungus were consistent with the description of Arcopilus aureus (Chivers) X.W. Wang & Samson (= Chaetomium aureum Chivers) (Lee et al. 2019). Furthermore, the sequences of RPB2 region were amplified from these strains and the result sequences (GenBank accession no. OR513105-OR513108) all showed a 100.00% identity with A. aureus strain CBS 538.73 (GenBank accession no. KX976807.1). It was reported that the RPB2 gene was efficient in discriminating Arcopilus species (Tavares et al. 2022), thus a maximum likelihood (ML) phylogenetic tree based on the RPB2 gene sequences were constructed using MEGA 7.0 with 1000 replications of bootstrapping (Kumar et al. 2016), which revealed that these strains formed a well-supported clade with A. aureus strains of (CBS 153.52 and CBS538.73) (Wang et al. 2022). Pathogenicity analysis were performed on healthy flue-cured tobacco seedlings leaves (cv Y85) by using mycelial agar plugs (5 mm in diameter) and spore suspension (1×106 spores/mL), and the PDA plugs and sterile water were used for control group, respectively. Tobacco seedlings were incubated in a 25°C and 70% RH growth chamber. After seven days, the leaves showed obvious symptoms, with taupe lesions and yellow halos on the periphery, whereas no symptoms were found on the control leaves. The A. aureu was then reisolated from inoculated diseased leaves. Previously, A. aureus has been only reported to cause leaf black disease on Pseudostellaria heterophylla in China (Yuan et al. 2021). To our knowledge, this is the first reported of A. aureus causing tobacco leaf grey spot worldwide. Arcopilus aureus has been reported as a plant biocontrol fungus (Wang et al. 2013). However, due to the potential serious damage in tobacco seedlings caused by this fungus, the use of A. aureus as a plant biocontrol agent needs to be given more attention, and disease control measures of this pathogen should be developed.
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